JP4174469B2 - RFID read / write method and apparatus for mobile unit - Google Patents

Description

  TECHNICAL FIELD The present invention relates to an RFID read / write method and apparatus for a mobile body, and more particularly, to read / write information or data from / to an RFID tag or a wireless communication tag provided on an article or the like moved by a belt conveyor by an RFID reader / writer. And device.

RFID is an abbreviation for Radio Frequency Identification, and is generally called by various names such as an RF tag, an RFID tag, an IC tag, or a non- contact IC card. In this specification, these are called RFID tags. Such an RFID tag is to be managed by writing various data (for example, product name, weight, quantity, manufacturer (or production location), date of manufacture, price, expiration date, etc.) using an RFID reader / writer. It is attached to the article. Then, the data of the RFID tag attached to such an article is read by the RFID reader / writer, or new data is written and used for inventory management and other purposes.

The RFID read / write system includes an RFID reader / writer (or an interrogator) and an RFID tag. Data is written to the RFID tag by the RFID reader / writer, and data written to the RFID tag is appropriately read by the RFID reader / writer. Reading and writing by this RFID reader / writer includes an electromagnetic induction method using an induction electromagnetic field (operation frequency is 135 kHz or 13.56 MHz) and a radio wave method using a radiation electromagnetic field (operation frequency is 433 MHz, 900 MHz or 2.4 GHz). The operating frequency is defined by each of these methods. As described above, an electromagnetic induction method has a low operating frequency in comparison to the radio wave method, transmission capacity of the data is smaller. However, since the antenna may have a simple configuration in which a conductive wire is wound, this electromagnetic induction method is used in many RFID read / write systems.

  Communication between the RFID reader / writer and the RFID tag needs to be operated by bringing the antenna of the RFID reader / writer and the RFID tag close to each other. Usually, it is made close to 30 cm or less, preferably 10 cm or less.

RFID reading and writing of the moving body at the (read / write) system, provided the mobile (or affixed to a) RFID tags, the communication area (or detection area for communication processing inner conductor of the RFID reader-writer antenna ). For high-speed movement of a moving body and communication processing of a large amount of data, it is necessary to increase the detection area of the RFID tag, that is, the detectable range. For that purpose, it is necessary to cope with the increase in the size and output of the antenna of the RFID reader / writer. However, it is technically difficult to develop a large antenna for an RFID reader / writer, which increases the cost. In addition, widening the detectable range of the RFID reader / writer increases the electromagnetic wave output, which causes problems such as regulations of the Radio Law and acquisition of standards. Therefore, it is necessary to widen the communication area or detection area with one antenna. There is a limit.

  When one or both of the RFID tag and the RFID reader / writer are moved, that is, when both of them are moved relative to each other, the RFID tag enters the inside of the antenna from the outside of the RFID reader / writer antenna, and further goes out of its detection area. go. When the RFID tag passes over the conductor of the RFID reader / writer antenna, the directions of magnetic fluxes supplied to the RFID tag antenna are opposite to each other. Therefore, no induced electromotive force is generated and communication may be interrupted.

Improvement techniques for solving the above-mentioned or related problems are disclosed in various technical documents. An ID tag reader / writer having a plurality of receiving antennas is disclosed (for example, see Patent Document 1). A non- contact article management system that can quickly and accurately grasp the inventory of articles to be managed in a narrow range without using a high-output radio wave is disclosed (for example, see Patent Document 2). There has been disclosed a communication device that selects one of a plurality of antennas each having a narrow communication area and communicates with a non- contact information medium (see, for example, Patent Document 3). Further, a non-contact IC card reader / writer device that uses a plurality of antenna elements to supply sufficient power to an IC card even at a position far from the card reader is disclosed (for example, see Patent Document 4). In addition, the interrogator (reader / writer) is provided with a plurality of antennas having different shapes or arrangement directions provided along the moving direction of the moving responder (IC card) without causing interference, detection omission, or reduction in processing speed. ) Is disclosed (see, for example, Patent Document 5).

JP 2001-34720 A (page 2-3, FIG. 1) JP 2002-356227 A (page 5-6, FIG. 1) JP 2002-359511 A (page 3-4, FIG. 2) JP 2003-242451 (page 3-4, FIGS. 1 and 2) JP 2003-283367 A (page 3-4, FIG. 1)

  However, in such a conventional technique, even if a plurality of antennas are provided, not all of the antennas are used for communication processing by combining these antennas, and it is not possible to greatly improve the data processing amount. Possible or difficult. Therefore, there is a problem that it is impossible to cope with high-speed relative movement between the RFID tag and the RFID reader / writer.

  The present invention has been made in view of the above-described problems of the prior art, and a mobile RFID read / write method capable of accurately reading and writing a large amount of data between an RFID tag and an RFID reader / writer that relatively move at high speed. And the main object is to provide a device.

  In order to solve the above-described problems, the RFID read / write method and apparatus for a mobile unit according to the present invention employs the following characteristic configuration.

(1) In an RFID read / write device of a mobile body including an RFID tag provided on the mobile body and an RFID reader / writer that reads and writes information from and to the RFID tag,
The RFID reader / writer includes a plurality of antennas arranged side by side along the moving direction of the moving body, and the plurality of antennas are arranged apart from each other, and a rear end detection area of one antenna is defined as the first antenna. An RFID read / write device for a mobile body that substantially matches a detection area of an adjacent antenna among the plurality of antennas by substantially matching a front end non-detection area of an antenna adjacent to one antenna.
(2) the RFID reader writer includes a plurality of which is the antenna, RFID reading and writing apparatus of the movable body (1) which is movably arranged to each other in the moving direction of the movable body.
(3) The mobile RFID reader / writer according to (1) or (2), further including switching means for sequentially switching the plurality of antennas included in the RFID reader / writer according to the movement of the mobile body.
(4) In the RFID read / write method for a mobile unit that reads / writes data from / to an RFID tag provided on a mobile unit that moves along the antenna of the RFID reader / writer,
Using a plurality of antennas arranged along the moving direction of the moving body as antennas of the RFID reader / writer, arranging the plurality of antennas apart from each other, and setting a rear end detection area of one antenna The movement of reading / writing data to / from an RFID tag provided on the moving body by a plurality of antennas included in the RFID reader / writer, which is substantially matched with a front end non-detection area of an antenna adjacent to the one antenna RFID reading and writing method of the body.

  The mobile RFID read / write device and method of the present invention provide the following practical advantages. First, the data read / write processing time between the RFID reader / writer and the RFID tag can be increased. The reason is that a plurality of antennas provided in the RFID reader / writer are arranged along the moving direction of the mobile body, and the detection area that can perform communication processing with the RFID tag can be used sufficiently effectively. is there. In addition, the relative movement speed between the RFID reader / writer and the RFID tag can be increased. The reason is that a plurality of antennas of the RFID reader / writer are arranged along the relative movement direction and are sequentially switched according to the relative movement to increase the detection area. In addition, data reading / writing errors of the mobile unit caused by the non-detection area on the antenna conductor of the RFID reader / writer that performs communication by electromagnetic induction do not occur or are small, and accurate data reading / writing is possible. The reason is that some antennas of the RFID reader / writer partially overlap each other, and by switching these antennas, data can be read and written in a continuous communication area using only the detection area where each antenna can perform communication processing. Because it does.

Furthermore, data read / write processing can be performed by program control to provide a degree of freedom, and there is no need to make the relative movement speed of the RFID reader / writer and the RFID tag constant. In addition, the reading / writing processing accuracy by communication processing is improved, which is suitable for a mobile carriage that needs acceleration / deceleration . Furthermore, by effectively using the front end detection area, the center detection area, and the rear end detection area of each antenna, the detection area can be expanded to significantly increase the read / write processing time.

  Hereinafter, the configuration and operation of a preferred embodiment of a mobile RFID read / write device and method according to the present invention will be described in detail with reference to the accompanying drawings.

  First, FIG. 1 is a configuration diagram of a main part of a first embodiment of a mobile RFID read / write device according to the present invention. FIG. 2 is an enlarged view of the antenna unit in FIG. 1A is a perspective view showing the entire configuration of a mobile RFID read / write device, and FIG. 1B is a front view showing an antenna portion of an RFID tag and an RFID reader / writer. 2A is a plan view of the antenna unit, and FIG. 2B is a front view of the antenna unit.

  A mobile RFID read / write device 10 shown in FIG. 1 includes an RFID reader / writer 20 and an RFID tag 30 provided on a mobile (not shown), as shown in FIG. Here, the RFID tag 30 is provided on the bottom surface of a managed article that moves at high speed on a belt conveyor, for example. The ID reader / writer 20 includes an RFID reader / writer main body 21 and a plurality of loop-shaped antennas 22A, 22B and 22C externally connected to the main body 21. The plurality of antennas 22 </ b> A to 22 </ b> C are arranged in series, that is, along the moving direction of the moving body 30 so that their communication areas overlap each other. The RFID tag 30 is assumed to move across the plurality of antennas 22A to 22C of the RFID reader / writer 20 from left to right in FIG.

  Although not shown in FIG. 1, in addition to the external antennas 22A to 22C described above, the FRID reader / writer 20 includes an antenna switching unit, a transmission / reception unit including a modulation / demodulation circuit, It has a control unit including a CPU (Central Processing Unit) that executes processing such as reading and writing, a memory unit that stores data, a power supply unit, a display unit that displays processing results and data, and the like. The power supply unit receives power supplied from a battery or a normal commercial power supply and is set to a predetermined voltage.

  On the other hand, although not shown in FIG. 1, the RFID tag 30 stores a loop-shaped RFID tag antenna formed along the outer periphery of the RFID tag 30, a transmission / reception unit including a modulation / demodulation circuit, a control unit, and data. It is comprised by the memory part and the electric power supply part. The power of the power supply unit of the RFID tag 30 is generated by receiving an induced electromotive force from the antennas 22A to 22C of the RFID reader / writer 20 by electromagnetic induction.

  The antennas 22A to 22C of the RFID reader / writer 20 are loop antennas formed by wrapping the antenna conductors 23A to 23C in a substantially rectangular shape (or frame shape) along the outer periphery of each antenna 22A to 22C. is there. The RFID tag 30 or an article provided with the RFID tag 30 moves in the area of the antenna conductors 23A to 23C of the antennas 22A to 22C of the RFID reader / writer 20. The length of the antenna conductors 23A to 23C in the moving direction of the RFID tag 30 will be referred to as the antenna length.

  Next, FIG. 2 is an enlarged front view of the three antennas 22A to 22C constituting the RFID reader / writer 20 in FIG. In FIG. 2A, for convenience of explanation, the arrangement of the antennas 22A to 22C in the moving direction of the RFID tag 30 is partially shifted. That is, the antenna 22B is shown shifted from the arrangement of the other antennas 22A and 22C. Inside the antennas 22A to 22C of the RFID reader / writer 20, center detection areas 24A to 24C capable of reading and writing data are formed. On the other hand, front end non-detection areas 25A to 25C and rear end non-detection areas 26A to 26C that are difficult to communicate with the RFID tag 30 are generated on the antenna conductors 23A to 23C of the antennas 22A to 22C.

  The occurrence phenomenon of the above-described non-detection areas 25A to 25C and 26A to 26C of the RFID reader / writer 20 will be described in detail. The RFID tag 30 approaches the antennas 22A to 22C of the RFID reader / writer 20, and the loop antenna (not shown) of the RFID tag 30 is connected to any one of the antenna leads 23A to 23C of the antennas 22A to 22C of the RFID reader / writer 20. Consider the state of moving to a position just above. At this time, half of the antenna of the RFID tag 30 is located outside the antenna conductors 23A to 23C of the RFID reader / writer 20, and the other half is located inside the antenna conductors 23A to 23C of the RFID reader / writer 20. That is, in this state, the polarity is reversed when the induced electromotive force due to the induction electromagnetic field is half that of the antenna of the RFID tag 30. Therefore, no power is induced in the loop antenna of the FID tag 30 and communication becomes difficult. As a result, the antennas 22A to 22C constituting the RFID reader / writer 20 are not located near the positions on the antenna conductors 23A to 23C. Detection areas 25A to 25C and 26A to 26C are generated.

  It is necessary to avoid the non-detection areas 25A to 25C and 26A to 26C generated in the antennas 22A to 22C of the RFID reader / writer 20 described above. Therefore, in the mobile RFID read / write device 10 of the first embodiment, adjacent antennas among the plurality of antennas 22A to 22C constituting the RFID reader / writer 20, that is, the antenna 22A and the antenna 22B, and the antenna 22B and the antenna 22C are mutually connected. To overlap.

  Next, the operation of the mobile RFID read / write device 10 according to the first embodiment of the present invention shown in FIGS. 1 and 2 will be described. As shown in FIG. 1A, a mobile RFID read / write device 10 composed of an RFID reader / writer 20 and an RFID tag 30 has a plurality (three) loop antennas 22A to 22C outside the RFID reader / writer main body 21. It is connected with attachment. The antenna conductors 23A to 23C of these three antennas 22A to 22C are arranged in series so as to partially overlap each other as described above. The overlapping portions of the antenna conductors 23A to 23C are selected in a range of about 5% to about 25% of each antenna length, but the antennas 22A to 22C are insulated in terms of DC.

  More specifically, the center detection areas 24A to 24C of the antennas 22A to 22C shown in FIG. 2 are arranged in series along the moving direction of the RFID tag 30. In other words, the rear end non-detection areas 26A and 26B of the respective antennas 22A and 22B are surrounded by the center detection areas 24B and 24C of the next adjacent antennas 22B and 22C, respectively. The overlap portion of the antenna conductors 23A to 23C is adjusted by a length of about 25%. That is, the RFID tag 30 moves at a certain speed while traversing the plurality of antennas 22A to 22C from left to right in FIG. At this time, the center detection areas 24A to 24C of the plurality of antennas 22A to 22C become detection areas (communication areas) in which communication processing with the RFID tag 30 is possible.

  When the RFID tag 30 approaches the antenna 22A of the RFID reader / writer 20 and enters the inside of the antenna 22A after passing through the non-detection area 25A, the RFID tag 30 is induced by receiving electric power from the antenna 22A of the RFID reader / writer 20 by electromagnetic induction. Electric power is generated. The RFID tag 30 receives power by this induced electromotive force, generates a voltage in the power supply unit, starts operation, and communication processing is performed in the center detection area 24A inside the antenna 22A. That is, the control unit of the RFID tag 30 reads at least data such as an ID number from the memory unit, and the data of the RFID tag 30 is transmitted to the antenna 22A of the RFID reader / writer 20 through the transmission / reception unit and the RFID tag antenna. The transmission / reception unit of the RFID reader / writer 20 sends the data received by the antenna 22A to the control unit of the RFID reader / writer 20, and is stored in the memory unit. If necessary, the RFID tag 30 is authenticated (ID number recognition) by comparing the read ID number with previously stored data. Based on the authentication, data processing between the RFID reader / writer 20 and the RFID tag 30 is started.

  Further, when the RFID tag 30 advances inside the antenna 22A and approaches the position (non-detection area 26A) where the RFID tag 30 on the antenna lead wire 23A of the antenna 22A is substantially divided into two, the electromagnetic wave received by the RFID tag 30 from the antenna 22A. The induced electromotive force due to induction decreases. In this state, communication with the antenna 22A becomes difficult, but the RFID tag 30 enters the center detection area 24B past the front end non-detection area 25B of the antenna 22B. Accordingly, the antenna 22A is switched to the antenna 22B, and communication processing such as reading and writing of data between the RFID tag 30 and the RFID reader / writer 20 is performed. Similarly, the antenna 22B is electrically switched from the antenna 22B to the antenna 22C corresponding to the movement of the RFID tag 30, and the RFID tags 30 and the RFID reader / writer 20 are detected in the center detection areas 24A to 24C of the antennas 22A to 22C. Communication processing such as data reading and writing can be performed.

  As described above, according to the RFID read / write device 10 of the mobile object of the present invention, communication such as data read / write between the RFID tag 30 and the RFID reader / writer 20 in proportion to the number of antennas as compared with the case of a single antenna. The throughput can be increased. When the amount of communication processing such as reading and writing of data between the RFID tag 30 and the RFID reader / writer 20 is constant and does not change, the RFID tag 30 and the RFID reader are proportional to the number of antennas compared to the case of a single antenna. The relative movement speed between the plurality of antennas 22A to 22C of the writer 20 can be increased. For example, if the number of antennas 22 is set to five, it is possible to cope with a speed about five times that of a single antenna. Therefore, the number of antennas 22 of the RFID reader / writer 20 is not particularly limited. Depending on the amount of data processing and the moving speed, 3 to 8 antennas 22 are practical in terms of size and price.

  As the data communication process, ID tag authentication, data reading from the RFID tag 30 and data writing process to the RFID tag 30 or any one of these processes, and after the data writing to the RFID tag 30, the RFID tag 30 It is possible to perform various communication processes such as a process of re-reading data from the computer and verification of written contents. According to the mobile RFID read / write device 10 of the present invention, since the data communication processing time is greatly improved, packetized data communication processing can also be performed.

  As described above, the data read / write processing time can be increased by widening the detection area serving as the communication area on the antenna 22 used for the read / write processing. This series of processing processes is performed by detecting the central detection areas 24A to 24C of the antennas 22A to 22C from the relative movement speeds of the antennas 22A to 22C and the RFID tag 30 of the RFID reader / writer 20 and the dimensions of the antennas 22A to 22C and the RFID tag 30. It is also possible to calculate the time required to pass through and to electrically switch each antenna 22 by controlling the time.

  That is, each required time for the RFID tag 30 to pass through the center detection areas 24A to 24C of the antennas 22A to 22C is stored in the memory unit of the RFID reader / writer 20 in advance. When the RFID tag 30 passes through the center detection areas 24A to 24C of the antennas 22A to 22C, switching control of the antennas 22A to 22C is performed according to the time required for the passage stored in the memory unit of the RFID reader / writer 20. If the relative moving speed between the antennas 22A to 22C of the RFID reader / writer 20 and the RFID tag 30 is changed, each required time also changes, but each required time corresponding to the relative moving speed is stored in the memory unit of the RFID reader / writer 20. If so, it is possible to cope with time control at various relative movement speeds.

  For example, the antenna 22 of the RFID reader / writer 20 is composed of three antennas 22A to 22C, the length of each antenna 22 is 12 cm, the antenna dimension of the RFID tag 30 is 3 cm, and the antenna of the RFID tag 30 and the RFID reader / writer 20 When the relative moving speed with respect to 22 is 1 m / sec, the detection area, the non-detection area, the length of the overlapping portion of the antenna conductor, and the communication processing time that can be used for the reading and writing processing of the RFID tag 30 are calculated. These lengths and communication processing times are the size of the RFID tag 30, the operating frequency, the electromagnetic induction transmission power, the resonance state of the antenna, the relative moving speed, the antenna 22 of the RFID reader / writer 20, and each surface of the RFID tag 30. It varies depending on the approach distance in the vertical direction. However, as the estimated values of the length, the center detection areas 24A to 24C of each antenna 22A to 22C = 10 cm, the front end non-detection areas 25A to 25C = 2 cm, and the rear end non-detection areas 26A to 26C = 2 cm are obtained. .

The overlap portion of the antenna conductors 23A to 23C in the above case is adjusted to 2 cm, and the overlap portion of the antenna conductors 23A to 23C is about 17% of the antenna length. The time required for the RFID tag 30 to pass through each area is the front end non-detection area 24A of the antenna 22A = 20 ms / 2 cm, the central detection areas 24A to 24C = 100 ms × 3/10 cm × 3, and after the antenna 22C. The edge non-detection area 26C = 20 ms / 2 cm. By controlling each time, the communication processing time that can be used for the read / write processing of the RFID tag 30 is 300 ms. If the switching of the antennas 22A to 22C is correctly executed by the time control, a stable communication can be performed without causing a communication error during the data read / write process, and the data processing accuracy is greatly improved.

  The time required for the read / write processing of the RFID tag 30 affects the data processing amount. When the amount of data processing is small, the relative movement speed between the antennas 22A to 22C of the RFID reader / writer 20 and the RFID tag 30 can be increased to increase the movement speed of the belt conveyor or the like, thereby improving the processing work. For example, when the above-described communication processing time may be 60 ms, the relative movement speed between the RFID tag 30 and the antennas 22A to 22C of the RFID reader / writer 20 can be increased to 5 m / second. Furthermore, when the above-described communication processing time may be 20 ms, the relative movement speed between the RFID tag 30 and the antennas 22A to 22C of the RFID reader / writer 20 can be increased to 15 m / second (about 60 km / hour). It can also be applied as an RFID read / write system for automobiles running on the road.

  That is, a plurality of locations formed on the antennas 22A to 22C of the RFID reader / writer 20 by devising the arrangement configuration of the plurality of antennas 22A to 22C and effectively using the detection of the RFID tag 30 on the antennas 22A to 22C. A series of data read / write processing between the RFID reader / writer 20 and the RFID tag 30 is performed in the detection areas 24A to 24C serving as communication areas. Therefore, the amount of read / write data processing of the RFID reader / writer 10 of the mobile body can be dramatically improved, and the speed of movement of the RFID tag 30 and the RFID reader / writer 20 can be improved.

  When the RFID reader / writer 20 includes three or more antennas 22, the two continuous antennas can be energized to smoothly switch the antennas 22. That is, after the RFID tag 30 passes through the first antenna 22A, the energization of the antennas that have already passed is cut off, and the antenna (eg, antenna 22B) next to the antenna (eg, antenna 22A) through which the RFID tag 30 is passing. By adopting a method of energizing, the antennas 22A to 22C can be easily switched, which contributes to power saving and is practical.

  Next, a mobile RFID read / write device 10A according to a second embodiment of the present invention will be described with reference to FIGS. 3 and 4 correspond to FIGS. 1 and 2 described above, respectively. For convenience of explanation, the same reference numerals are used for the constituent elements corresponding to the constituent elements of the mobile RFID reader / writer 10 described above, and differences from the mobile RFID reader / writer 10 will be mainly described. To do.

  As shown in FIG. 3 (A), the RFID read / write device 10A of the moving body is composed of an RFID reader / writer 20 and an RFID tag 30. In this mobile RFID reader / writer 10A, the RFID reader / writer 20 includes an RFID reader / writer main body 21 and a plurality of antennas 22A to 22C. The antenna conductors 23A to 23C of the antennas 22A to 22C are arranged in a cascade connection apart from each other in the moving direction of the RFID tag 30 within a range of about 5% to about 25% of the antenna length. As a result, as shown in FIG. 4B, continuous communication processing between the RFID reader / writer 20 and the RFID tag 30 is executed by effectively using the detection areas or communication areas of the antennas 22A to 22C.

  Specifically, as shown in FIG. 4, the positional relationship between the antenna 22A and the antenna 22B is such that the rear end non-detection area 26A of the antenna 22A and the front end non-detection area 25B of the antenna 22B are connected to the front end detection area 27B of the antenna 22B. And the rear end detection area 25B of the antenna 22A are adjusted in the range of about 5% to about 25% of the antenna length so that they overlap each other. In the arrangement configuration of the plurality of antennas 22A to 22C, in addition to the center part detection areas 24A to 24C inside the antenna conductors 23A to 23C of the antennas 22A to 22C, the front end part detection formed outside the antenna conductors 23A to 23C. The areas 27A to 27C and the rear end detection areas 28A to 28C are effectively used for communication processing.

  That is, a wide detection area of the communicable antenna 22 can be realized at a low cost with a simple configuration. The RFID tag 30 moves at a certain speed while traversing the plurality of antennas 22A to 22C continuously from left to right in FIG. The processing process of the mobile RFID reader / writer 10A includes front end detection areas 27A to 27C, center detection areas 24A to 24C, and rear end detection formed inside and outside the antennas 22A to 22C of the RFID reader / writer 20. Based on the front end non-detection areas 25A to 25C and the rear end non-detection areas 26A to 26C appearing on the areas 28A to 28C and the antenna conductors 23A to 23C, it is executed by program control with the algorithm of the RFID read / write device 10A. The

  The mobile RFID read / write device 10A described above operates while moving either or both of the RFID reader / writer 20 and the RFID tag 30. For example, when an article provided with the RFID tag 30 moves on a belt conveyor or the like, the main body 21 of the RFID reader / writer 20 and the plurality of antennas 22A to 22C are arranged and used on a table or the like. When an article provided with the RFID tag 30 is placed in a warehouse or the like, the main body 21 of the RFID reader / writer 20 and the plurality of antennas 22A to 22C are operated as a movable type. The RFID reader / writer 20 (that is, the RFID reader / writer main body 21 and the plurality of antennas 22A to 22C) mounted on a cart or an automobile can be read / written with the RFID tag 30. When it is not easy to make the relative movement speed between the plurality of antennas 22A to 22C connected to the RFID reader / writer main body 21 of the writer 20 and the RFID tag 30 constant, a data read / write process by program control is suitable.

  Specifically, as shown in FIG. 4, the RFID reader / writer 20 detects the RFID tag 30 by using the entry of the RFID tag 30 into the front end detection area 27A of the antenna 22A as an event, and detects the front end of the outside of the antenna 22A. As a first process in the detection area 27A, a communication process using the antenna 22A such as reading the ID number of the RFID tag 30 is performed. When the RFID tag 30 further enters and becomes the front end non-detection area 25A on the antenna conductor 23A of the antenna 22A, the RFID reader / writer 20 cannot detect the RFID tag 30, so the communication processing with the RFID tag 30 is temporarily interrupted. .

  Next, when the RFID tag 30 passes over the antenna conductor 23A of the antenna 22A and enters the inside of the antenna conductor 23A, the RFID reader / writer 20 detects the RFID tag 30 and performs the second process in the center detection area 24A. Then, communication processing that requires time such as reading data from the RFID tag 30 and writing data to the RFID tag 30 is started. When the RFID tag 30 comes out from the inside of the antenna conductor 23A, there is a rear end non-detection area 26A, and the RFID reader / writer 20 cannot detect the RFID tag 30. However, the RFID tag 30 has entered the front end detection area 27B of the antenna 22B, switches from the antenna 22A to the antenna 22B, and performs communication processing as a third process in the front end detection area 27B of the antenna 22B.

When further proceeding, it enters the front end non-detection area 25B on the antenna conductor 23B of the antenna 22B, but the area overlaps the rear end detection area 28A of the antenna 22A, and the antenna operation is once returned from the antenna 22B to the antenna 22A. Then, communication processing with the RFID tag 30 is performed as the fourth processing in the rear end detection area 28A of the antenna 22A. Thereafter, the RFID tag 30 enters the central detection area 24B of the antenna 22B, performs communication processing reading and writing of data between the RFID reader-writer 20 and RFID tag 30 as the fifth process is switched again from the antenna 22A to the antenna 22B. In the detection area that is the communication area of each of the antennas 22A to 22C shown in FIG. 4B, that is, the front end detection area 27A, the center detection area 24A of the antenna 22A, the front end detection area 27B of the antenna 22B, and the rear of the antenna 22A Communication processing such as reading / writing of data is performed between the RFID reader / writer 20 and the RFID tag 30 while switching the antennas 22A to 22C in the order of the end detection area 28A and the center detection area 24B of the antenna 22B.

Similarly, while the RFID tag 30 moves from the antenna 22B to the antenna 22C, the front end detection areas of the antennas 22A to 22C are added to the center detection areas 24A to 24C while switching the antennas 22B and 22C. the 27A~27C and rear end detection area 28A~28C each antenna 22A~22C by effectively utilizing, reading and writing of data between the RFID reader-writer 20 and RFID tag 30, the communication processing of the processing confirmation of data is performed .

Among the antennas 22A to 22C, if the communication processing in the front end detection area 27A of the antenna 22A and the rear end detection area 28C of the antenna 22C is omitted, the communication processing time slightly decreases, but the central detection area of the antenna 22A The detection area, which is a communication area from 24A to the center detection area 24C of the antenna 22C, is connected in cascade along the moving direction of the RFID 30, and continuous communication processing is possible while switching the antennas 22A to 22C. Communication processing becomes possible.

  Further, in the RFID read / write device 10A of the mobile body, two RFID reader / writers 20 that perform communication processing with the RFID tag 30 are prepared, and a plurality of continuous antennas are connected to each RFID reader / writer 20 every other one. The As a result, the two RFID reader / writers 20 connect the data collected from the RFID tag 30 to be processed and recognized as one data. Since communication processing by one RFID reader / writer can be parallel processing, the speed of communication processing is improved. This series of processing processes is executed by program control in the control unit according to a program stored in the memory unit of the RFID reader / writer 20, but can also be implemented by time control. Furthermore, advanced program control and data management can be performed as necessary by connecting a mobile RFID read / write device to a host server using wired or wireless communication.

  Next, an RFID read / write method and apparatus for a mobile unit according to a third embodiment of the present invention will be described with reference to FIG. FIG. 5 is a configuration diagram of a mobile RFID read / write device 10B according to the third embodiment corresponding to FIGS. 1 and 3 described above. For convenience of explanation, the same reference numerals are used for components corresponding to the above-described embodiments.

  In particular, as shown in FIG. 5A, the RFID read / write device 10 </ b> B of the moving body includes an RFID reader / writer 20 and an RFID tag 30. As shown in FIG. 5B, the antennas 22A to 22C constituting the RFID reader / writer 20 are galvanically insulated from each other, and the antenna conductors 23A to 23C of the antennas 22A to 22C overlap each other. The RFID tags 30 are arranged so as to be close (or overlap) along the moving direction of the RFID tag 30. The antennas 22A to 22C are operated in a resonance state, and the detection areas 24A to 24C inside the antenna conductors 23A to 23C of the antennas 22A to 22C are combined to form a continuous integrated detection area. 20 and the RFID tag 30 are communicated.

  That is, in this arrangement configuration, the antennas 22A to 22C have an elongated band-like antenna configuration. Each antenna 22A to 22C is a single antenna when energized, and the RFID reader / writer 20 and the RFID tag 30 communicate with each other at high speed. In FIG. 5, the RFID tag 30 moves from the left to the right across the plurality of antennas 22 </ b> A to 22 </ b> C. Each antenna 22 </ b> A to 22 </ b> C performs communication processing while being electrically switched according to the moving speed of the RFID tag 30. Can also be done. That is, the mobile RFID read / write device 10B having an antenna having a wide detection area capable of communication can be realized with a simple configuration at low cost. Further, since there is no need to increase the electromagnetic wave output of the antenna 22, problems such as regulations of the Radio Law and acquisition of standards do not occur.

The configuration and operation of the embodiments of the RFID read / write method and apparatus for a mobile unit according to the present invention have been described above in detail. However, it should be noted that such examples are merely illustrative of the invention and do not limit the invention in any way. Those skilled in the art will readily understand that various modifications and changes can be made according to a specific application without departing from the gist of the present invention. For example, as in the first to third embodiments described above, there are three types of antenna arrangements such as an antenna arrangement configuration in which a plurality of antennas overlap (overlapping) and a cascade connection antenna arrangement configuration in which adjacent antennas are slightly separated from each other. A plurality of antennas can be formed not only by the configuration but also by an arrangement configuration combining these three types. Further, the number of antennas to be used is not limited to three, and an arbitrary number of four or more antennas may be used depending on the application.

In addition, the plurality of antennas constituting the RFID reader / writer are configured to be movable with respect to each other , and the antenna arrangement adjustment such as the length of the overlapping portion between the antennas is performed, and the data processing amount when the RFID reader / writer of the moving body is operated It is also possible to perform in advance according to the moving speed. Further, the plurality of antennas constituting the RFID reader / writer are not connected externally to the RFID reader / writer main body, but the entire antenna is mounted inside the RFID reader / writer main body, and a part of the RFID reader / writer is used as an antenna section. It may be formed. Furthermore, an electronic circuit such as a transmission / reception unit or a control unit of the RFID reader / writer can be made into an LSI, and a small RFID reader / writer can be attached as a part of the antenna side.

  The present invention can be put into practical use for various applications. Application examples are listed as follows. RFID reader / writer and RFID tag need to operate as a moving body RFID read / write system Stored in an article, member, device management system factory, warehouse, distribution route, etc. that moves on a belt conveyor or carriage Management system for goods, members, and devices. Specifically, a personal recognition system in which an RFID tag is used as an article production management system, inventory management system, and distribution management system moving body. An entrance / exit management system, a system for performing packet data communication processing in the management system. A system in which the relative movement speed of the RFID reader / writer and the RFID tag is 1 m / second or higher in the management system as described above. RFID read / write system for automobiles running on the road.

1 shows a first embodiment of a mobile RFID read / write device according to the present invention, in which (A) is a perspective view of the entire device, and (B) is a front view of an RFID tag and an antenna portion of an RFID reader / writer. It is an enlarged view of Drawing 1 (B), (A) is a top view shown shifting partially, and (B) is a front view. 2A and 2B show a second embodiment of a mobile RFID read / write device according to the present invention, in which FIG. 1A is a perspective view of the whole device, and FIG. 2B is a front view of an RFID tag and an antenna portion of an RFID reader / writer. It is an enlarged view of the antenna part of FIG. 3 (B), (A) is a top view shown in partly displaced, (B) is a front view. 3 shows a third embodiment of a mobile RFID read / write device according to the present invention, wherein (A) is a perspective view of the entire device, and (B) is a front view of an RFID tag and an antenna portion of an RFID reader / writer.

Explanation of symbols

10, 10A, 10B RFID reader / writer 21 RFID reader / writer main body 22A-22C RFID reader / writer antenna 23A-23C Antenna conductor 24A-24C Antenna center detection area 25A-25C Non-front end of antenna Detection areas 26A-26C Antenna rear end non-detection areas 27A-27C Antenna front end detection areas 28A-28C Antenna rear end detection areas 30 RFID tags

Claims (4)

In an RFID read / write device of a mobile unit including an RFID tag provided on the mobile unit and an RFID reader / writer that reads and writes information from and to the RFID tag,
The RFID reader / writer includes a plurality of antennas arranged side by side along the moving direction of the moving body, and the plurality of antennas are arranged apart from each other, and a rear end detection area of one antenna is defined as the first antenna. An RFID read / write device for a mobile unit, wherein a detection area of an adjacent antenna among the plurality of antennas is made substantially continuous by substantially matching a front end non-detection area of an antenna adjacent to one antenna. Wherein said plurality of antennas RFID reader-writer contains is, RFID reading and writing apparatus of the mobile body according to claim 1, characterized in that movably arranged to each other in the moving direction of the movable body. The mobile RFID reader / writer according to claim 1, further comprising switching means for sequentially switching the plurality of antennas included in the RFID reader / writer according to the movement of the mobile body. In the RFID read / write method for a mobile unit, the RFID reader / writer reads / writes data to / from an RFID tag provided on the mobile unit moving along the antenna of the RFID reader / writer.
Using a plurality of antennas arranged along the moving direction of the moving body as antennas of the RFID reader / writer, arranging the plurality of antennas apart from each other, and setting a rear end detection area of one antenna Read / write data to / from an RFID tag provided on the moving body by using a plurality of antennas included in the RFID reader / writer, which substantially matches the front end non-detection area of the antenna adjacent to the one antenna. An RFID read / write method for a mobile unit characterized by the above.

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